KR102272393B1 - Safety cover for wiring breaker with automatic fire extinguishing function and bolt loosening prevention function - Google Patents

Abstract

The present invention relates to a safety cover for a circuit breaker having an automatic fire extinguishing function and a bolt loosening prevention function. More specifically, it includes a plate-shaped safety cover upper body 100, and a plate-shaped safety cover upper body 100 ) of the fixing pin insertion hole 100d, the fixing end 120b having the hexagonal protruding end 120a of the wrench bolt fixing pin 120 in the direction toward the inner side of the safety cover support 200, the fixing pin insertion The hexagonal rod 120c of the wrench bolt fixing pin 120 protrudes through the fixing pin insertion hole 100d to the upper plate of the safety cover upper body 100 outside the hole 100d. ) provides a safety cover of a circuit breaker having an automatic fire extinguishing function and a bolt loosening prevention function, characterized in that it provides a structure to be fixed on the fixing pin insertion hole 100d of the upper body 100 of the safety cover.
The safety cover of a circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to an embodiment of the present invention is a device mounted on a connection part to which a cable or a copper bus bar is fastened during wiring of a wiring breaker installed in a switchboard. In addition to preventing bolt loosening and extinguishing fires caused by overheating of cables or copper busbars at an early stage, the safety cover of the circuit breaker according to the present invention has a protection rating of IP60 and seals the exposed parts of the connecting and energized parts for electric shock. It can prevent accidents and prevent fire accidents by preventing contamination of dust, etc. The material of the safety cover is made of transparent nylon (PA) material so that the internal condition can be checked frequently, and it is not limited to circuit breakers for wiring. A high-voltage circuit breaker can be installed with a different structure, and a temperature sensor can be built in to control ON/OFF of the circuit breaker.

Description

Safety cover for wiring breaker with automatic fire extinguishing function and bolt loosening prevention function

The present invention relates to a safety cover for a circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function. More specifically, it is a device mounted on a connection part to which a cable or copper bus bar is fastened during wiring of a wiring breaker installed in a switchboard, It relates to a safety cover for a circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function that prevents bolt loosening due to vibration and has a hybrid fire extinguishing liquid capsule that prevents fire due to overheating of cables or copper busbars in advance.

A switchboard is a facility in which mechanical devices are installed that receive power from a power supply source in a power plant or substation and distribute it to a building or home.

Such a switchboard maintains a closed state so that high voltage and high current flow due to the characteristics of the facility, so that people other than the manager cannot easily access or operate it. Usually, it is stored in a metal box.

On the other hand, as mentioned above, since such a switchboard plays a role of receiving and distributing electric power in a state of being stored in a metal box, in order to check whether these operations are performed smoothly from the outside, it is inconvenient to have to enter through the opening and check the inside of the box. is holding the In addition, since it is difficult to check from the outside, if a fire occurs, a problem that cannot be replaced immediately occurs additionally.

The related prior art, Republic of Korea Patent Application No. 10-2018-0115491 (2018.09.28) "Power distribution board fire detection and notification system" is current and voltage, temperature/humidity, smoke It relates to a switchboard fire detection and notification technology that can effectively prevent fire and electric shock accidents in the switchboard by applying a hybrid sensing module combined with detection functions such as , carbon dioxide, and the like.

In addition, Korean Patent Application No. 10-2019-0070322 (June 12, 2019) No. "Prevention of deterioration of switchboard and fire suppression system" describes the temperature difference in the environment inside the sealed enclosure of the switchboard It relates to a technology that prevents deterioration by removing the humidity generated by the evacuation and, in the event of a fire, intensively sprays the extinguishing agent to the area where the fire occurred so that the fire can be extinguished at an early stage.

In addition, the Republic of Korea Patent Application No. 10-2017-0063452 (2017.05.23) "Distributing board of apartment house having a fire spread prevention structure" reacts in case of fire on the upper part of the switchboard body to provide extinguishing water By having a fire extinguishing means that discharges (water), when a fire occurs, it operates quickly when reacting with the heat, enabling fire extinguishing inside the switchboard, etc. to prevent the spread of fire and delay secondary accidents It relates to a switchboard of an apartment house having a fire spread prevention structure to prevent

In addition, the Republic of Korea Patent Application No. 10-2019-0163376 (2019.12.10) No. "Fire management system of switchboard" relates to a switchboard fire management system, and temperature, carbon dioxide, a sensor module that detects VOCs concentration, sound field change, and internal pressure of the fire extinguishing tube; a display unit installed on one front side of any one of the power distribution units and configured to check and display the state of the sensor module, set and display a threshold value of the sensor, and generate an alarm; and a server that stores, analyzes and manages the information transmitted from the display unit.

However, the above-mentioned conventional techniques prevent bolt loosening due to vibration when installing a cable or copper bus bar when wiring a circuit breaker installed in a switchboard, and at the same time provide immediate quick action in case of fire. have.

Korean Patent Application No. 10-2018-0115491 (2018.09.28) "Power distribution board fire detection and notification system" Korean Patent Application No. 10-2019-0070322 (2019.06.12) "Prevention of deterioration of switchboard and fire suppression system" Republic of Korea Patent Application No. 10-2017-0063452 (2017.05.23) "Distributing board of apartment house with fire spread prevention structure" Korean Patent Application No. 10-2019-0163376 (2019.12.10) "Fire management system of switchboard"

The present invention is to solve the above problems, as a device mounted on a connection part to which a cable or copper bus bar is fastened when wiring a circuit breaker for wiring installed in a switchboard, and prevents bolt loosening due to vibration and overheating of the cable or copper bus bar It is to provide a safety cover of a circuit breaker for wiring so that a hybrid fire extinguishing liquid capsule that prevents a fire caused by a fire in advance is built-in.

In addition, the present invention has an automatic fire extinguishing function and a bolt loosening prevention function having an automatic fire extinguishing function and a bolt loosening prevention function to prevent an electric shock accident by sealing the exposed part of the connection conducting part, and to prevent a fire accident by preventing contamination of dust, etc. It is to provide a safety cover of a circuit breaker for wiring with

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a safety cover for a circuit breaker having an automatic fire extinguishing function and a bolt loosening prevention function according to an embodiment of the present invention is provided with a plate-shaped safety cover upper body 100, and a plate-shaped safety cover The fixing end 120b having the hexagonal protruding end 120a of the wrench bolt fixing pin 120 in the direction toward the safety cover support 200 inside the fixing pin insertion hole 100d of the upper body 100 faces while facing , a wrench bolt in such a way that the hexagonal rod 120c of the wrench bolt fixing pin 120 penetrates the fixing pin insertion hole 100d to the upper plate of the safety cover upper body 100 outside the fixing pin insertion hole 100d. It is characterized in that it provides a structure in which the fixing pin 120 is fixed on the fixing pin insertion hole 100d of the upper body 100 of the safety cover.

At this time, it is characterized in that the bus bar 300 is seated on the bus bar mounting part 200b provided on the plate-shaped support body 200a.

In addition, after penetrating from the lower part to the upper part of the support body 200a through the bolt hole 200d provided on the support body 200a, each copper busbar 300 is fixed through the fixing bolt 310, characterized in that do.

In addition, when each copper busbar 300 is primarily fixed with each fixing bolt 310 , two fixing bolts 310 are used for the thickness below a preset threshold, which is a heterogeneous classification of each copper busbar 300 . It is characterized in that the copper bus bar 300 is fixed.

In addition, when each crimping terminal 400 is secondarily fixed with each fixing bolt 410 , each crimping terminal 400 is fastened two spaced apart per each crimping terminal 400 for less than a preset threshold thickness. ) is characterized in that it is secondarily fixed.

In addition, by fixing using a wrench bolt 110 on the wrench bolt hole formed at the end of the bus bar 300, the mounting on the safety cover support 200 for the bus bar 300 is performed. characterized in that

In addition, according to the voltage method used on the fixing pin insertion hole 100d of the safety cover upper body 100, it is characterized in that all the two to four wrench bolt fixing pins 120 are fastened.

In addition, each copper busbar 300 is characterized in that it is divided into single-phase, three-phase three-wire, or three-phase four-wire.

In addition, in the fixed wrench bolt fixing pin 120, the hexagonal groove of the wrench bolt 110, the embossed hexagonal protruding end 120a protruding together with the circular rim among the bottom surface of the cylindrical fixing end 120b 110a) It is characterized in that it has a shape that can be inserted into the stomach.

In addition, by fixing the fixed end 120b of each fixed wrench bolt fixing pin 120 onto the hexagonal groove 110a of the wrench bolt 110, the upper body 100 of the safety cover and the bus bar 300 are The seated safety cover support 200 is primarily fixed to the copper bus bar 300 , and the inner surface of the fixed end 120b is inserted into the outer surface of the wrench bolt 110 . ) to prevent loosening.

The safety cover of a circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to an embodiment of the present invention is a device mounted on a connection part to which a cable or copper bus bar is fastened during wiring of a wiring breaker installed in a switchboard. It can prevent bolt loosening and extinguish fires caused by overheating of cables or copper busbars at an early stage.

In addition, the safety cover of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to another embodiment of the present invention has a protection grade of IP60, and prevents electric shock accidents by sealing the exposed parts of the connection conducting parts, and It can prevent contamination and prevent fire accidents.

In addition, the material of the safety cover may be made of a transparent nylon (PA) material so that the internal state can be checked at any time.

The safety cover of the present invention is not limited to a circuit breaker for wiring, and can be installed with a different structure in a high-voltage circuit breaker, etc., and a temperature sensor is built-in to perform ON/OFF control of the circuit breaker.

1 is a view showing a safety cover upper body 100 in the safety cover 1 of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to an embodiment of the present invention.
2 is a view showing the safety cover support 200 in the safety cover 1 of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to an embodiment of the present invention.
3 is a cable for wiring the fixing bolt and the wiring breaker for fixing the copper bus bar to the safety cover support 200 in the safety cover 1 of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to an embodiment of the present invention. Alternatively, it is a view for explaining the structure of the wrench bolt 110 of the connection part to which the bus bar is fastened.
4 is for explaining the structure of the wrench bolt fixing pin 120 and the handle-type fixing end 130 in the safety cover 1 of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to an embodiment of the present invention. It is a drawing.
5 is a view showing that the safety cover 1 of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to an embodiment of the present invention is actually manufactured.
6 is a view showing the position where the hybrid fire extinguishing liquid capsule mixing piece of the safety cover 1 of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to another embodiment of the present invention is mounted.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, detailed description of preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a view showing a safety cover upper body 100 in the safety cover 1 of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to an embodiment of the present invention. 2 is a view showing the safety cover support 200 in the safety cover 1 of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to an embodiment of the present invention. 3 is a cable for wiring the fixing bolt and the wiring breaker for fixing the bus bar to the safety cover support 200 in the safety cover 1 of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to an embodiment of the present invention. Alternatively, it is a view for explaining the structure of the wrench bolt 110 of the connection part to which the bus bar is fastened. 4 is for explaining the structure of the wrench bolt fixing pin 120 and the handle-type fixing end 130 in the safety cover 1 of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to an embodiment of the present invention. It is a drawing. 5 is a view showing that the safety cover 1 of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to an embodiment of the present invention is actually manufactured. 6 is a view showing the position where the hybrid fire extinguishing liquid capsule mixing piece of the safety cover 1 of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function according to another embodiment of the present invention is mounted.

1 to 5 , the safety cover 1 of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function may include a safety cover upper body 100 and a safety cover support body 200 .

1, the safety cover upper body 100 includes a safety cover body 100a, a digestive liquid capsule mixing piece insertion end 100b, a bus bar bulkhead 100c, a fixing pin insertion hole 100d, a wrench bolt 110, By including a wrench bolt fixing pin 120, a handle-type fixing end 130, and a hybrid digestive liquid capsule mixing piece (not shown), heat is generated from the copper bus bar 300 fixed to the safety cover support 200 connected to the circuit breaker. When it occurs, digestive juice can be generated from the hybrid digestive juice capsule mixed into the digestive juice capsule mixing piece inserted into the insertion end 100b of the hybrid digestive juice capsule mixing piece.

The hybrid digestive juice capsule mixing piece is made by mixing the hybrid digestive juice capsule with a polymer resin component that can be decomposed by heat and molded into a certain shape, for example, a rectangular shape or an oval shape, and the color is mainly orange. , but is not limited thereto.

Next, as shown in FIG. 2, the safety cover support 200 may include a support body 200a, a busbar mounting part 200b, a compression terminal fixing bolt hole 200c, and a busbar fixing bolt hole 200d. can

First, the bus bar 300 is seated on the bus bar mounting part 200b provided on the support body 200a, and the support body 200a is formed with a bolt hole 200d provided on the support body 200a. After penetrating from the lower part to the upper part, each copper bus bar 300 is primarily fixed in a manner of fastening two fixing bolts 310 spaced apart for each copper bus bar 300. ), by fixing the wrench bolt 110 having the structure as shown in FIG. 3 on the wrench bolt hole formed at the end of the busbar 300, the mounting on the safety cover support 200 for the bus bar 300 can be performed. have.

In addition, the crimping terminal 400 may be mounted on the upper end of the installed copper bus bar 300 as the crimping terminal fixing bolt 410 through the crimping terminal fixing bolt hole 200c.

Thereafter, the hexagonal protruding end 120a of the wrench bolt fixing pin 120 as shown in FIGS. 4a and 4b in the direction toward the inside of the fixing pin insertion hole 100d of the safety cover upper body 100 , that is, the safety cover support 200 . ), the hexagonal rod 120c of the wrench bolt fixing pin 120 is inserted into the outside of the fixing pin insertion hole 100d, that is, the upper plate of the safety cover upper body 100, while facing the fixing end 120b having the ). The wrench bolt fixing pin 120 may be fixed on the fixing pin insertion hole 100d of the upper body 100 of the safety cover in such a way that it protrudes through the hole 100d.

Accordingly, by fastening all of the two, three, or four wrench bolt fixing pins 120 on the fixing pin insertion hole 100d of the upper body 100 of the safety cover, in the fixed wrench bolt fixing pin 120 , , It can have a shape in which the hexagonal protruding end 120a of the embossed shape protruding together with the circular rim among the bottom surface of the fixed end 120b of the cylindrical shape can be inserted into the hexagonal groove 110a of the wrench bolt 110. And, by fixing the fixed end 120b of each fixed wrench bolt fixing pin 120 onto the hexagonal groove 110a of the wrench bolt 110, the safety cover upper body 100 and the copper bus bar 300 It is possible to primarily fix the safety cover support 200 on which the is seated to the copper bus bar 300 .

Thereafter, by attaching the handle-type fixing end 130 to the fixing pin insertion hole 100d area of the upper end of the safety cover upper body 100 , it is no longer on the fixing pin insertion hole 100d of the safety cover upper body 100 . While the wrench bolt fixing pin 120 located inside limits the vertical movement, the fastening between the wrench bolt 110 and the wrench bolt fixing pin 120 can be performed.

More specifically, the wrench bolt fixing pin 120 in which the circuit breaker for wiring and the copper bus bar 300 are connected to the safety cover support 200 through the wrench bolt 110 is a hexagonal protruding end 120a and a wrench bolt. Since the installation angle of the hexagonal groove 110a on (110) is limited to 60° in structure, the wrench bolt fixing pin 120 is fixed to the safety cover body ( 100a) can be fixed.

Here, the sawtooth fixed end 120d is formed between the fixed end 120b and the hexagonal bar 120c in the height direction, thereby fixing the wrench bolt fixing pin 120 on the safety cover body 100a. Also, the separation of the tooth fixing end 120d from the safety cover body 100a may be easy.

To this end, the fixing pin insertion hole 100d is to accommodate the toothed fixing end 120d of the wrench bolt fixing pin 120 for smooth assembly with the toothed fixing end 120d of the wrench bolt fixing pin 120 . It is preferable to be manufactured in the form of processing the groove.

That is, when the safety cover body 100a is coupled with the safety cover support 200 to the circuit breaker for wiring, the wrench bolt fixing pin 120 is fixed to the toothed portion of the safety cover body 100a It has a structure having a circular layer. After assembling in a state protruding above the safety cover body 100a, after assembly between the safety cover support 200 and the safety cover body 100a formed integrally or separately on the circuit breaker for wiring, the wrench bolt fixing pin 120 ) when a downward external force is performed on the wrench bolt fixing pin 120 to perform insertion into the wrench bolt 110 of the safety cover support 200, finally a handle-type fixing end 130 in the form of FIG. 4c. to block the fixing pin insertion hole 100d.

The handle-type fixed end 130 is formed of a toothed fastening end 130a at a lower portion and a handle end 130b at the upper portion, and is inserted into the inner surface of the digestive liquid capsule mixing piece insertion end 100b as the toothed fastening end 130a. In this state, the upper surface of the toothed fixing end 120d and the lower surface of the toothed fastening end 130a contact each other to provide a structure for limiting vertical movement of the wrench bolt fixing pin 120 .

As such, the safety cover (1) of the circuit breaker for wiring having an automatic fire extinguishing function and bolt loosening prevention function is a device mounted on the connection part to which a cable or copper bus bar 300 is fastened when wiring a wiring breaker installed in a switchboard. A hybrid fire extinguishing liquid capsule mixing piece is built in to prevent bolt loosening and to prevent fire caused by overheating of cables or copper busbar 300, thereby sealing the exposed parts of the connection energized part in the wiring breaker to prevent electric shock accidents, Fire accidents can be prevented by preventing contamination.

More specifically, the safety cover upper body 100 has a bus bar bulkhead 100c corresponding to a blocking wall that blocks contact of single to four phases of each copper bus bar 300 on the horizontal plate of the safety cover body 100a. It is formed orthogonally to the surface and has the characteristic that the internal state can be checked frequently by using a transparent nylon (PA:Polyamide) material that is strong against impact and heat.

The copper busbar 300 may have single-phase to three-phase depending on the type, and the circuit breaker for wiring may use 2P, 3P, or 4P. The 2P may use a single phase, 3P may use a three-phase three-wire system, and 4P may use a three-phase four-wire system, but is not limited thereto.

The digestive fluid capsule mixing piece insertion end 100b may be located in the middle of the fixing bolt hole for inserting the fixing bolt 310 in the middle region in the longitudinal direction of the plate-shaped safety cover body 100a, but is not limited thereto, 6, on the structure of the upper body 100 of the safety cover, it may be formed in a position close to the fixing pin insertion hole 100d for fixing the connection between the bus bar 300 and the circuit breaker for wiring.

On the other hand, in one embodiment of the present invention, the safety cover 1 of the circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function is a connection part of the circuit breaker for wiring. In the case of a cable connection other than the bus bar 300, the cable is connected It can be easily combined from the top in a state where it is in a state where it is possible to provide a structure in which the height of the hybrid fire extinguishing liquid capsule mixing piece mounting part can be adjusted according to the type, size, and quantity of the cable connection material (compression terminal).

And in the case of connecting the copper bus bar 300 as in the present invention, the size of the copper bus bar 300 corresponding to the rated current capacity of each wiring breaker is applied to provide an integrated structure with the upper body 100 of the safety cover, which is easy to install. can provide

The digestive juice capsule mixing piece insertion end 100b is a hybrid digestive juice capsule mixing piece in a groove recessed in the size of the digestive juice capsule mixing piece according to the position of the cable or copper busbar 300 of each phase (R, S, T, N). It can be installed securely using double-sided tape, and the cable or copper busbar 300 and the hybrid digestive liquid capsule mixing piece are in close contact with each other to provide a structure in which heat transfer is good.

The hybrid fire extinguishing liquid capsule mixing piece is attached to the inside of the fixing pin insertion hole 100d, and the microcapsule particles for fire extinguishing inside the module frame burst by chlorination in case of fire, and fire extinguishing gas is ejected.

The hybrid digestive juice capsule mixing piece is manufactured in the form of a pad and can be attached to the fixing pin insertion hole (100d) in the form of a sticker using an adhesive on the back side, a magnet attachment method using magnetic force, a mesh attachment method, a Velcro type attachment method, a film type attachment method, etc. can

And, the microcapsule particles for fire extinguishing are micro-capsules with a diameter of 5 to 20 μm, and microencapsulation of an active agent (about 5 to 10 μm), that is, liquid, gas, solid in microcapsules. By applying the technology of inserting the microcap, it is inserted inside the microcap. Here, the microcap is a polymer shell with strong resistance to foreign material penetration and is a binding material with improved stability and flexibility by automatically responding to temperature.

Micro-extinguishing agent corresponding to the extinguishing agent (active agent) by using a hydrofluorocarbon (HYdrofluorocarbon, hereinafter, 'HFC') prepared from halogen compounds, it is possible to extinguish the fire by suppression cooling. In one embodiment of the present invention, the micro-extinguishing material (active agent) HFC-227ea (CH ₃ CHFCF ₃ ) may be used.

Meanwhile, fluorohydrocarbons (HFCs), which are substitutes for CFCs, can be prepared by substituting fluorine for chlorine in two or more halogenated carbons or halogenated hydrocarbon compounds as an organic reaction raw material. The halogenated carbon or halogenated hydrocarbon compound used here is CH _a Xb (X=Cl or F a=1 or 2, b=4-a, containing at least one Cl) and CX ₃ CH _a' X _b' (X =Cl or F, a'=1,2 or 3 and b'=3-a', comprising at least one Cl) and C ₂ H _a Cl _b (a=0, 1, 2 or 3, b = 4-a).

And in another embodiment of the present invention, the micro extinguishing agent (active agent) is HFC-23 (CF ₃ H), HFC-125 (CH ₃ CH ₂ H), HFC-236fa (CF ₃ CH ₂ CF) instead of HFC-227ea. ₃ ) or a mixture thereof.

And, a microencapsulation method of microencapsulation of 5 to 10 μm in diameter into micro-capsule particles for fire extinguishing, which is a micro-size capsule having a diameter of 5 to 20 μm.

First, by applying the technology of inserting liquid, gas, and solid into the microcapsule, it is inserted into the microcap. Here, the microcap is a polymer shell with strong resistance to foreign material penetration and is a binding material with improved stability and flexibility by automatically responding to temperature.

More specifically, the microcap may utilize a foamable resin composition. That is, thermally expansible microcapsules obtained by enclosing a volatile liquid that becomes gaseous at a temperature below the softening point of the shell polymer in a thermoplastic shell polymer is also used for the microcap. When such a thermally expandable microcapsule is heated, the volatile liquid becomes gaseous, and the shell polymer softens and expands. For example, it may be a resin composition comprising a thermoplastic resin having a melting point or softening point of 90° C. or less, and thermally expandable microcapsules that expand at a temperature of 90 to 130° C.

In another embodiment of the present invention, the microcap is a foamable resin composition containing a thermoplastic resin and a chemical foaming agent, wherein the foaming start temperature of the foamable resin composition is Ts, the maximum foaming temperature is Tmax, and the decomposition temperature of the chemical foaming agent is Tc. In this case, Ts is 90 ° C. or higher, Tmax is 120 ° C. or higher, and a polymerizable monomer further containing a carboxyl group-containing monomer and a thermosetting resin having a functional group capable of reacting with a carboxyl group and not having a radically polymerizable double bond in the molecule is used. It may be a microcapsule containing a volatile liquid as a core agent in the shell obtained. On the other hand, it is preferable that the decomposition product of the chemical blowing agent contains carbon dioxide gas, nitrogen gas, carbon monoxide gas, and carbon dioxide gas, but does not contain water or a powder component.

As a pre-step during microencapsulation for micro-active agent using microcaps, by mixing water-soluble polymer with micro-active agent and coating the first thin film, the surface for micro-active agent It has excellent adhesion to block the inflow of external moist air during coating and to act as a binder with excellent bonding strength with porous particles, which are secondary microencapsulation coating agents. Specifically, the water-soluble polymer used as the primary thin film coating agent is not limited thereto, but hydroxyethylcellulose (HEC), carboxymethylcellulose (CMC), propylene glycol alginate, guar gum (guar gum), gelatin, arabia gum, polyvinylpyrrolidone (PVP), carbopol, sodium alginate, xanthan gum) It is preferably selected from the group consisting of.

Next, the coating agent having porous particles in the primary coated micro-extinguishing agent (active agent) and the above-described foamable resin composition are mixed to form secondary microencapsulation.

Here, the porous coating agent serves to block the inflow of external moisture and moist air as a coating agent based on porous particles in the cells. Used for microencapsulation and having porous particles can be used as a secondary coating agent, specifically, but not limited to, maltodextrin, chitosan, alginate, starch, Acetyl triethyl citrate (acetyl triethyl citrate), polyethylene glycol (polyethyleneglycol, PEG), propylene glycol (propyleneglycol), triethyl citrate (triethyl citrate), triacetin (triacetin) or glycerin (glycerin), etc. are included, preferably For example, it may be polyethylene glycol (PEG).

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms are used, these are only used in a general sense to easily explain the technical contents of the present invention and to help the understanding of the present invention. , it is not intended to limit the scope of the present invention. It is apparent to those of ordinary skill in the art to which the present invention pertains that other modifications based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

1: Safety cover of circuit breaker for wiring with automatic fire extinguishing function and bolt loosening prevention function
100: upper body of safety cover 100a: body of safety cover
100b: digestive fluid capsule mixing piece insertion end 100c: busbar bulkhead
100d: fixing pin insertion hole 110: wrench bolt
120: wrench bolt fixing pin 130: handle-type fixing end
200: safety cover support 200a: support body
200b: Busbar mounting part 200c: Crimping terminal fixing bolt hole
200d: copper bus bar fixing bolt hole 300: copper bus bar
310: copper bus bar fixing bolt 400: crimping terminal (copper tube)
410: crimp terminal fixing bolt

Claims (10)

Safety cover upper body (100); and a safety cover support 200; includes,
The safety cover support body 200 includes a support body 200a, a busbar mounting part 200b, a compression terminal fixing bolt hole 200c, and a copper busbar fixing bolt hole 200d, and the safety cover upper body 100 ), the safety cover body (100a), the digestive fluid capsule mixing piece insertion end (100b), the busbar bulkhead (100c), the fixing pin insertion hole (100d), the wrench bolt 110, the wrench bolt fixing pin 120, the handle By including the type fixed end 130 and the hybrid digestive liquid capsule mixing piece, when heat is generated from the copper bus bar 300 fixed to the safety cover support 200 connected to the circuit breaker, the hybrid digestive liquid capsule mixing piece inserting end 100b In the safety cover (1) of a circuit breaker for wiring having an automatic fire extinguishing function that generates digestive juice from a hybrid digestive juice capsule mixed in the inserted digestive juice capsule mixing piece and a bolt loosening prevention function,
The bus bar 300 is seated on the bus bar mounting part 200b provided on the support body 200a, and from the lower part of the support body 200a through the bolt hole 200d provided on the support body 200a. After penetrating upward, the fixing bolts 310 are fastened two spaced apart for each copper bus bar 300 , respectively, in a state where each copper bus bar 300 is primarily fixed. By fixing the wrench bolt 110 onto the wrench bolt hole formed at the end, the bus bar 300 is mounted on the safety cover support 200,
The crimping terminal 400 is mounted on the upper end of the installed copper bus bar 300 with the crimping terminal fixing bolt 410 through the crimping terminal fixing bolt hole 200c,
The fixing end 120b having the hexagonal protruding end 120a of the wrench bolt fixing pin 120 in the inside of the fixing pin insertion hole 100d of the safety cover upper body 100 , that is, in the direction toward the safety cover support 200 ) While facing this, the hexagonal rod 120c of the wrench bolt fixing pin 120 protrudes through the fixing pin insertion hole 100d to the outside of the fixing pin insertion hole 100d, that is, to the upper plate of the safety cover upper body 100. In this way, the wrench bolt fixing pin 120 is fixed on the fixing pin insertion hole 100d of the upper body 100 of the safety cover,
By fastening all of the two, three, or four wrench bolt fixing pins 120 on the fixing pin insertion hole 100d of the upper body 100 of the safety cover, the fixed wrench bolt fixing pin 120 has a cylindrical shape. Of the bottom surface of the fixed end (120b) of the embossed hexagonal protrusion end (120a) protruding together with the circular rim may have a form that can be inserted into the hexagonal groove (110a) of the wrench bolt (110), each By fixing the fixed end 120b of the fixed wrench bolt fixing pin 120 onto the hexagonal groove 110a of the wrench bolt 110, the safety cover upper body 100 and the bus bar 300 are seated. The safety cover support 200 is primarily fixed to the copper bus bar 300,
By attaching the handle-type fixing end 130 to the fixing pin insertion hole 100d area of the upper end of the safety cover upper body 100 , it is no longer on the inside on the fixing pin insertion hole 100d of the safety cover upper body 100 . While the located wrench bolt fixing pin 120 restricts the vertical movement, the fastening between the wrench bolt 110 and the wrench bolt fixing pin 120 is performed,
The wrench bolt fixing pin 120 in which the wiring breaker and the copper bus bar 300 are connected to the safety cover support 200 through the wrench bolt 110 is a hexagonal protruding end 120a of the hexagonal shape and the wrench bolt 110 on the Since the installation angle of the hexagonal groove 110a is limited to 60° due to the structure, the wrench bolt fixing pin 120 is fixed to the safety cover body 100a using the sawtooth fixing end 120d that is free to adjust the angle. make it,
The sawtooth fixing end 120d is formed between the fixed end 120b and the hexagonal bar 120c in the height direction, thereby fixing and separating the wrench bolt fixing pin 120 on the safety cover body 100a. to do,
The fixing pin insertion hole 100d is machined with a groove to accommodate the toothed fixing end 120d of the wrench bolt fixing pin 120 for smooth assembly with the toothed fixing end 120d of the wrench bolt fixing pin 120 . manufactured in one form,
When the safety cover body 100a is coupled with the safety cover support 200 to the circuit breaker for wiring, the safety cover has a structure having a circular layer that fixes the wrench bolt fixing pin 120 to the toothed portion of the safety cover body 100a. After assembly is performed in a state protruding above the body 100a, after assembly between the safety cover support 200 and the safety cover body 100a formed integrally or separately on the circuit breaker, the wrench bolt fixing pin 120 is When a downward external force is applied to the wrench bolt fixing pin 120 to perform insertion into the wrench bolt 110 of the safety cover support 200, finally the fixing pin insertion hole 100d into the handle-type fixing end 130. blocking the
The handle-type fixed end 130 is,
The lower part is formed of a toothed fastening end (130a), and the upper part is formed of a handle end (130b), so the toothed fixed end (120d) in a state inserted into the inner surface of the digestive liquid capsule mixing piece insertion end (100b) as the toothed fastening end (130a) Provides a structure that limits the vertical movement of the wrench bolt fixing pin 120 by contacting the upper surface of the upper surface and the lower surface of the toothed fastening end (130a),
Safety cover upper body 100,
A bus bar partition wall 100c corresponding to a blocking wall that blocks contact between each copper busbar 300 is formed orthogonally on the horizontal plate of the safety cover body 100a, and transparent nylon (PA: Polyamide) resistant to impact and heat ) You can check the internal condition from time to time by using the material,
The digestive fluid capsule mixing piece insertion end 100b may be located in the middle of the fixing bolt hole for inserting the fixing bolt 310 in the middle region in the longitudinal direction of the plate-shaped safety cover body 100a, and the safety cover upper body 100 ) is formed in a position close to the fixing pin insertion hole 100d for fixing the connection part of the copper bus bar 300 and the circuit breaker for wiring,
Hybrid digestive juice capsule mixing edition,
It is attached to the inside of the fixing pin insertion hole (100d), and in case of fire, the microcapsule particles for fire extinguishing inside the module frame explode due to chlorination, and fire extinguishing gas is ejected,
It is manufactured in the form of a pad and is attached to the fixing pin insertion hole 100d in one of a sticker type using adhesive on the back side, a magnet attachment method using magnetic force, a mesh attachment method, a Velcro type attachment method, and a film type attachment method,
Microcapsule particles for fire extinguishing are micro-capsules with a diameter of 5 to 20 μm, and microencapsulation of an active agent (5 to 10 μm) (a technology of inserting liquid, gas, and solid into microcapsules). By applying , inserting it inside the microcap,
Micro-extinguishing agent (active agent) corresponding to the extinguishing agent extinguishes the fire by suppression cooling by using HYdrofluorocarbon (hereinafter, 'HFC') prepared from halogen compounds, micro-extinguishing material (active agent) uses HFC-227ea (CH ₃ CHFCF ₃ ),
Fluorohydrocarbon (HFC), a substitute for CFC, is prepared by substituting fluorine for chlorine in two or more halogenated carbon or halogenated hydrocarbon compounds as an organic reaction raw material, and the halogenated carbon or halogenated hydrocarbon compound used is CH _a Xb (X = Cl or F a=1 or 2, b=4-a, comprising at least one Cl) and CX ₃ CH _a' X _b' (X=Cl or F, a'=1,2 or 3 and b'= 3-a', comprising at least one Cl) and C ₂ H _a Cl _b (a=0, 1, 2 or 3, b=4-a),
When microencapsulation is applied, microcaps use thermally expandable microcapsules obtained by encapsulating a volatile liquid that becomes gaseous at a temperature below the softening point of the shell polymer in a thermoplastic shell polymer that is a foamable resin composition, and the thermally expandable microcapsules are heated When the volatile liquid becomes gaseous, the shell polymer softens and expands, and a thermoplastic resin with a melting point or softening point in a preset first temperature range (1 ° C or more and 90 ° C or less), and a preset second temperature range (90 to using a resin composition comprising thermally expandable microcapsules that expand at a temperature of 130 ° C.),
As a preliminary step in microencapsulation for micro-active agent using micro-cap, by mixing water-soluble polymer with micro-active agent and coating the first thin film, surface adhesion to micro-active agent is improved. It is excellent so that it blocks the inflow of external wet air during coating and serves as a binder with excellent bonding strength with porous particles, which is a secondary microencapsulation coating agent, and the water-soluble polymer used as the primary thin film coating agent is not limited thereto, but is not limited thereto. hydroxyethylcellulose (HEC), carboxymethylcellulose (CMC), propylene glycol alginate, guar gum, gelatin, arabia gum, polyvinyl skin It is selected from the group consisting of rolidone (polyvinylpyrrolidone, PVP), carbopol, sodium alginate, xanthan gum),
The coating agent having porous particles in the primary coated micro-extinguishing agent (active agent) and the above-described foamable resin composition are mixed to form secondary microcapsules, and the porous coating agent is a coating agent of a base having porous particles in the cells, and external moisture and It serves to block the inflow of moist air, and is used for microencapsulation. Those with porous particles are used as a secondary coating, or maltodextrin, chitosan, alginate, starch ), acetyl triethyl citrate, polyethylene glycol (PEG), propylene glycol, triethyl citrate, triacetin, or glycerin A safety cover for a circuit breaker for wiring having an automatic fire extinguishing function and a bolt loosening prevention function.
delete delete delete delete delete delete The safety cover of a circuit breaker for wiring according to claim 1, wherein each copper bus bar (300) is divided into single-phase, three-phase three-wire, or three-phase four-wire, and has an automatic fire extinguishing function and a bolt loosening prevention function.
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